Abstract
Based on the results obtained in the ZrO sub(2).MO sub(x) systems, the stabilization aspects of tetragonal zirconia is discussed in an integrated way, in order to differentiate among the thermodynamical, the kinetic and stress fields effects of the dopant ion on the stabilization. In the ZrO2.TiO2 system, when in solid solution, TiO additions act to suppress the ZrO2 densification, leading to grain growth when attempts are made to attain higher densities. Such effect is believed to be the main factor preventing retention of tetragonal zirconia at room temperature in this system. (author).
Pandolfelli, V C;
Rodrigues, J A;
[1]
Longo, E;
[2]
Stevens, R
[3]
- Sao Carlos Univ., SP (Brazil). Dept. de Engenharia de Materiais
- Sao Carlos Univ., SP (Brazil). Dept. de Quimica
- Leeds Univ. (UK)
Citation Formats
Pandolfelli, V C, Rodrigues, J A, Longo, E, and Stevens, R.
Zirconia stabilization and its retention at room temperature in the ZrO sub(2). TiO sub(2) system. Estabilizacao de zirconia e sua retencao a temperatura ambiente no sistema ZrO sub(2). TiO sub(2).
Brazil: N. p.,
1990.
Web.
Pandolfelli, V C, Rodrigues, J A, Longo, E, & Stevens, R.
Zirconia stabilization and its retention at room temperature in the ZrO sub(2). TiO sub(2) system. Estabilizacao de zirconia e sua retencao a temperatura ambiente no sistema ZrO sub(2). TiO sub(2).
Brazil.
Pandolfelli, V C, Rodrigues, J A, Longo, E, and Stevens, R.
1990.
"Zirconia stabilization and its retention at room temperature in the ZrO sub(2). TiO sub(2) system. Estabilizacao de zirconia e sua retencao a temperatura ambiente no sistema ZrO sub(2). TiO sub(2)."
Brazil.
@misc{etde_5731482,
title = {Zirconia stabilization and its retention at room temperature in the ZrO sub(2). TiO sub(2) system. Estabilizacao de zirconia e sua retencao a temperatura ambiente no sistema ZrO sub(2). TiO sub(2)}
author = {Pandolfelli, V C, Rodrigues, J A, Longo, E, and Stevens, R}
abstractNote = {Based on the results obtained in the ZrO sub(2).MO sub(x) systems, the stabilization aspects of tetragonal zirconia is discussed in an integrated way, in order to differentiate among the thermodynamical, the kinetic and stress fields effects of the dopant ion on the stabilization. In the ZrO2.TiO2 system, when in solid solution, TiO additions act to suppress the ZrO2 densification, leading to grain growth when attempts are made to attain higher densities. Such effect is believed to be the main factor preventing retention of tetragonal zirconia at room temperature in this system. (author).}
place = {Brazil}
year = {1990}
month = {Jan}
}
title = {Zirconia stabilization and its retention at room temperature in the ZrO sub(2). TiO sub(2) system. Estabilizacao de zirconia e sua retencao a temperatura ambiente no sistema ZrO sub(2). TiO sub(2)}
author = {Pandolfelli, V C, Rodrigues, J A, Longo, E, and Stevens, R}
abstractNote = {Based on the results obtained in the ZrO sub(2).MO sub(x) systems, the stabilization aspects of tetragonal zirconia is discussed in an integrated way, in order to differentiate among the thermodynamical, the kinetic and stress fields effects of the dopant ion on the stabilization. In the ZrO2.TiO2 system, when in solid solution, TiO additions act to suppress the ZrO2 densification, leading to grain growth when attempts are made to attain higher densities. Such effect is believed to be the main factor preventing retention of tetragonal zirconia at room temperature in this system. (author).}
place = {Brazil}
year = {1990}
month = {Jan}
}